HMCS Vancouver Pre-Deployment Brief - May 2024 (Web Version).pptx
QSAR.pptx
1. History and development of QSAR :
Physicochemical Parameters
Presented by
Dhanashree R. Kavhale
M. Pharm. (Pharmaceutical Chemistry) Sem- II
Department of Pharmaceutical Sciences
Rashtrasant Tukadoji Maharaj Nagpur University, Nagpur - 440033
2. Contents
1. Introduction
2. SAR v/s QSAR
3. History of QSAR
4. Development of QSAR
5. QSAR and drug design
6. Physicochemical parameters
7. References
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Quantifying the relationship between physicochemical properties and
biological activity.
mathematical relationship which correlates measurable or calculable molecular
properties to some specific biological activity in terms of an equation.
so that it can be used to evaluate the activity of new compounds.
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• QSAR derived equation take the general form:
• Biological activity = function(parameters)
• Activity is expressed as log(1/c).
• Where, c is the minimum concentration required to cause a defined biological
response.
Purpose of QSAR:
To predict biological activity and physic-chemical properties by rational means.
To comprehend and rationalize the mechanisms of action within a series of
chemicals.
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6. SAR v/s QSAR
SAR
• Used to develop a new drug that has increased
activity.
• Mainly done by lead molecule.
• It doesn't consider the change in potency.
QSAR
• Mainly help in drug designing purpose.
• Optimize the properties of lead compound.
• Deals with the potency and change in efficacy.
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7. History of QSAR
• 1900 : H. H. Meyer and C. E. Overton : Lipoid theory of narcosis
• 1930 : L. Hammett: Electronic sigma constants
• 1964 : C. Hansch and T. Fujita: QSAR
• 1984 : P. Andrews: Affinity contributions of functional groups
• 1985 : P. Goodford: GRID (hot spots at protein surface)
• 1988 : R. Cramer: 3D QSAR
• 1992 : H. J. Böhm: LUDI interaction sites, docking, scoring
• 1997 : C. Lipinski: Bioavailability rule of five
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8. Development of QSAR
QSAR modeling was founded by Corwin Hansch.
Tools for modeling of physical and biological properties of chemicals.
QSAR models find broad applications for assessing the potential impacts of
chemicals, nanomaterials on human health and ecological systems.
Achieved by developing QSAR models and employed them for virtual screening
followed by experimental validation.
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9. Steps in development of QSAR
Data
understanding
Molecular
descriptors
Data processing
Data cleaning
Data
transformation
Multivariate
analysis
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10. Physicochemical Parameters
Electronic parameters
Electron distribution in the drug molecules affect the drug distribution and activity.
Non polar and polar drugs are readily transported through the membrane in
unionised form than ionised form.
When drug reaches to the target site its electron distribution and structure, controls
the type of bond it will form with the target molecules.
The bond formations influences the drug biological activity.
Two type of electronic parameters are as follows:
1. Hammett equation
2. Dipole movement
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11. Linear Free Energy Relationships
Linear Free Energy Relationships allow a correlation of substituents with a
reaction rate, biological activity, pKa, etc.
To help us understand the magnitude of the sensitivity of parameter to changing
substituents, with respect to a reference reaction.
What Hammett accomplished :
the Hammett equation describes a linear free energy relationship
relating reaction rate and equilibrium constant for many reactions
involving benzoic acid derivatives.
To relate the biological activity of a series of compounds to their physicochemical
parameters in a quantitative fashion using a mathematical formula.
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12. Hammett equation
It is the measure of substituents ability to donate or withdraw the electron.
Determined by using the dissociations of series of benzoic acid substituted
derivatives in relation to pure benzoic acid
Hammett substitution(𝜎) constant of the particular substituent(x) is defined
by using formula.
𝜎𝑥 = log(
𝑘𝑅
𝑘𝐻
)
Where, 𝑘𝑅 = dissociation constant of substituted acid
𝑘𝐻 = dissociation constant of unsubstituted acid
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𝜎 value depends upon inductive and resonance effect.
And also depends upon whether the substituent is meta or para.
Benzoic acid having EWG have larger 𝒌𝑹 value than benzoic acid. So 𝜎 value
is positive.
Benzoic acid having EDG have smaller 𝒌𝑹 value than benzoic acid. So 𝜎 value
is negative.
Limitation:
It doesn't hold for ortho substituents, this characteristic is known as ortho effect.
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14. QSAR and Drug Design
To modify the chemical structure of the lead compound.
To retain or to reinforce the desirable pharmacologic effect.
Minimizing unwanted pharmacological and physical and chemical properties.
To use target analogs as pharmacological probes to gain better insight into the
pharmacology of the lead molecule.
To reveal new knowledge of basic biology.
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15. References
1. Myint KZ, Xie XQ. Recent advances in fragment-based QSAR and multi-
dimensional QSAR methods. Int J Mol Sci. 2010;11(10):3846-3866.
Published 2010 Oct 8. doi:10.3390/ijms11103846.
2. Esposito EX, Hopfinger AJ, Madura JD. Methods for applying the
quantitative structure-activity relationship paradigm. Methods Mol Biol.
2004;275:131-214. doi:10.1385/1-59259-802-1:131.
3. Verma J, Khedkar VM, Coutinho EC. 3D-QSAR in drug design--a
review. Curr Top Med Chem. 2010;10(1):95-115.
doi:10.2174/156802610790232260.
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